eval_metrics.py

from __future__ import print_function, absolute_import
import numpy as np
"""Cross-Modality ReID"""
import pdb

def eval_sysu(distmat, q_pids, g_pids, q_camids, g_camids, max_rank = 20):
    """Evaluation with sysu metric
    Key: for each query identity, its gallery images from the same camera view are discarded. "Following the original setting in ite dataset"
    """
    num_q, num_g = distmat.shape
    if num_g < max_rank:
        max_rank = num_g
        print("Note: number of gallery samples is quite small, got {}".format(num_g))
    indices = np.argsort(distmat, axis=1)
    pred_label = g_pids[indices]
    matches = (g_pids[indices] == q_pids[:, np.newaxis]).astype(np.int32)
    
    # compute cmc curve for each query
    new_all_cmc = []
    all_cmc = []
    all_AP = []
    all_INP = []
    num_valid_q = 0. # number of valid query
    for q_idx in range(num_q):
        # get query pid and camid
        q_pid = q_pids[q_idx]
        q_camid = q_camids[q_idx]

        # remove gallery samples that have the same pid and camid with query
        order = indices[q_idx]
        remove = (q_camid == 3) & (g_camids[order] == 2)
        keep = np.invert(remove)
        
        # compute cmc curve
        # the cmc calculation is different from standard protocol
        # we follow the protocol of the author's released code
        new_cmc = pred_label[q_idx][keep]
        new_index = np.unique(new_cmc, return_index=True)[1]
        new_cmc = [new_cmc[index] for index in sorted(new_index)]
        
        new_match = (new_cmc == q_pid).astype(np.int32)
        new_cmc = new_match.cumsum()
        new_all_cmc.append(new_cmc[:max_rank])
        
        orig_cmc = matches[q_idx][keep] # binary vector, positions with value 1 are correct matches
        if not np.any(orig_cmc):
            # this condition is true when query identity does not appear in gallery
            continue

        cmc = orig_cmc.cumsum()

        # compute mINP
        # refernece Deep Learning for Person Re-identification: A Survey and Outlook
        pos_idx = np.where(orig_cmc == 1)
        pos_max_idx = np.max(pos_idx)
        inp = cmc[pos_max_idx]/ (pos_max_idx + 1.0)
        all_INP.append(inp)

        cmc[cmc > 1] = 1

        all_cmc.append(cmc[:max_rank])
        num_valid_q += 1.

        # compute average precision
        # reference: https://en.wikipedia.org/wiki/Evaluation_measures_(information_retrieval)#Average_precision
        num_rel = orig_cmc.sum()
        tmp_cmc = orig_cmc.cumsum()
        tmp_cmc = [x / (i+1.) for i, x in enumerate(tmp_cmc)]
        tmp_cmc = np.asarray(tmp_cmc) * orig_cmc
        AP = tmp_cmc.sum() / num_rel
        all_AP.append(AP)

    assert num_valid_q > 0, "Error: all query identities do not appear in gallery"
    
    all_cmc = np.asarray(all_cmc).astype(np.float32)
    all_cmc = all_cmc.sum(0) / num_valid_q   # standard CMC
    
    new_all_cmc = np.asarray(new_all_cmc).astype(np.float32)
    new_all_cmc = new_all_cmc.sum(0) / num_valid_q
    mAP = np.mean(all_AP)
    mINP = np.mean(all_INP)
    return new_all_cmc, mAP, mINP
    
    
    
def eval_regdb(distmat, q_pids, g_pids, max_rank = 20):
    num_q, num_g = distmat.shape
    if num_g < max_rank:
        max_rank = num_g
        print("Note: number of gallery samples is quite small, got {}".format(num_g))
    indices = np.argsort(distmat, axis=1)
    matches = (g_pids[indices] == q_pids[:, np.newaxis]).astype(np.int32)

    # compute cmc curve for each query
    all_cmc = []
    all_AP = []
    all_INP = []
    num_valid_q = 0. # number of valid query
    
    # only two cameras
    q_camids = np.ones(num_q).astype(np.int32)
    g_camids = 2* np.ones(num_g).astype(np.int32)
    
    for q_idx in range(num_q):
        # get query pid and camid
        q_pid = q_pids[q_idx]
        q_camid = q_camids[q_idx]

        # remove gallery samples that have the same pid and camid with query
        order = indices[q_idx]
        remove = (g_pids[order] == q_pid) & (g_camids[order] == q_camid)
        keep = np.invert(remove)

        # compute cmc curve
        raw_cmc = matches[q_idx][keep] # binary vector, positions with value 1 are correct matches
        if not np.any(raw_cmc):
            # this condition is true when query identity does not appear in gallery
            continue

        cmc = raw_cmc.cumsum()

        # compute mINP
        # refernece Deep Learning for Person Re-identification: A Survey and Outlook
        pos_idx = np.where(raw_cmc == 1)
        pos_max_idx = np.max(pos_idx)
        inp = cmc[pos_max_idx]/ (pos_max_idx + 1.0)
        all_INP.append(inp)

        cmc[cmc > 1] = 1

        all_cmc.append(cmc[:max_rank])
        num_valid_q += 1.

        # compute average precision
        # reference: https://en.wikipedia.org/wiki/Evaluation_measures_(information_retrieval)#Average_precision
        num_rel = raw_cmc.sum()
        tmp_cmc = raw_cmc.cumsum()
        tmp_cmc = [x / (i+1.) for i, x in enumerate(tmp_cmc)]
        tmp_cmc = np.asarray(tmp_cmc) * raw_cmc
        AP = tmp_cmc.sum() / num_rel
        all_AP.append(AP)

    assert num_valid_q > 0, "Error: all query identities do not appear in gallery"

    all_cmc = np.asarray(all_cmc).astype(np.float32)
    all_cmc = all_cmc.sum(0) / num_valid_q
    mAP = np.mean(all_AP)
    mINP = np.mean(all_INP)
    return all_cmc, mAP, mINP